m01 Chapter Contents
m01 Chapter Introduction
NAG Library Manual

# NAG Library Function Documentnag_reorder_vector (m01esc)

## 1  Purpose

nag_reorder_vector (m01esc) rearranges a vector of arbitrary type data objects into the order specified by a vector of indices.

## 2  Specification

 #include #include
 void nag_reorder_vector (Pointer vec, size_t n, size_t size, ptrdiff_t stride, size_t indices[], NagError *fail)

## 3  Description

nag_reorder_vector (m01esc) uses a variant of list merging as described by Knuth (1973). The function rearranges a set of $n$ data objects of arbitrary type, which are stored in an array at intervals of length stride, into the order specified by an array of indices.

## 4  References

Knuth D E (1973) The Art of Computer Programming (Volume 3) (2nd Edition) Addison–Wesley

## 5  Arguments

1:    $\mathbf{vec}\left[{\mathbf{n}}\right]$Pointer Input/Output
On entry: the array of objects to be rearranged.
On exit: the objects rearranged according to array indices.
2:    $\mathbf{n}$size_tInput
On entry: the number, $n$, of objects to be rearranged.
Constraint: $0\le {\mathbf{n}}\le \mathrm{MAX_LENGTH}$, where $\mathrm{MAX_LENGTH}$ is an implementation-dependent value for the maximum size of an array.
3:    $\mathbf{size}$size_tInput
On entry: the size of each object to be rearranged.
Constraint: $1\le {\mathbf{size}}\le p$, where $p$ is an implementation-dependent value for the maximum size_t size on the system, divided by n if n is positive.
4:    $\mathbf{stride}$ptrdiff_tInput
On entry: the increment between data items in vec to be rearranged.
Note: if stride is positive, vec should point at the first data object; otherwise vec should point at the last data object.
Constraint: ${\mathbf{size}}\le \left|{\mathbf{stride}}\right|\le p$, where $p$ is an implementation-dependent value for the maximum size_t size on the system, divided by n if n is positive.
5:    $\mathbf{indices}\left[{\mathbf{n}}\right]$size_tInput
On entry: the indices specifying the order in which the elements of vector are to be rearranged.
6:    $\mathbf{fail}$NagError *Input/Output
The NAG error argument (see Section 2.7 in How to Use the NAG Library and its Documentation).

## 6  Error Indicators and Warnings

NE_2_INT_ARG_LT
On entry, $\left|{\mathbf{stride}}\right|=〈\mathit{\text{value}}〉$ while ${\mathbf{size}}=〈\mathit{\text{value}}〉$. These arguments must satisfy $\left|{\mathbf{stride}}\right|\ge {\mathbf{size}}$.
NE_ALLOC_FAIL
Dynamic memory allocation failed.
Invalid indices vector.
NE_INT_ARG_GT
On entry, ${\mathbf{n}}=〈\mathit{\text{value}}〉$.
Constraint: ${\mathbf{n}}\le 〈\mathit{\text{value}}〉$, an implementation-dependent size that is printed in the error message.
On entry, ${\mathbf{size}}=〈\mathit{\text{value}}〉$.
Constraint: ${\mathbf{size}}\le 〈\mathit{\text{value}}〉$, an implementation-dependent size that is printed in the error message.
On entry, ${\mathbf{stride}}=〈\mathit{\text{value}}〉$.
Constraint: $\left|{\mathbf{stride}}\right|\le 〈\mathit{\text{value}}〉$, an implementation-dependent size that is printed in the error message.
NE_INT_ARG_LT
On entry, ${\mathbf{n}}=〈\mathit{\text{value}}〉$.
Constraint: ${\mathbf{n}}\ge 0$.
On entry, ${\mathbf{size}}=〈\mathit{\text{value}}〉$.
Constraint: ${\mathbf{size}}\ge 1$.

Not applicable.

## 8  Parallelism and Performance

nag_reorder_vector (m01esc) is not threaded in any implementation.

The average time taken by the function is approximately proportional to n.

## 10  Example

The example program.

### 10.1  Program Text

Program Text (m01esce.c)

### 10.2  Program Data

Program Data (m01esce.d)

### 10.3  Program Results

Program Results (m01esce.r)